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ips_to_maps.py
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ips_to_maps.py
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
"""
Use Tautulli draw a map connecting Server to Clients based on IP addresses.
optional arguments:
-h, --help show this help message and exit
-m , --map Map location. choices: (NA, EU, World, Geo)
(default: NA)
-c [], --count [] How many IPs to attempt to check.
(default: 2)
-u [ ...], --users [ ...]
Space separated list of case sensitive names to process. Allowed names are:
{List of Users}
(default: all)
-i [ ...], --ignore [ ...]
Space separated list of case sensitive names to process. Allowed names are:
{List of Users}
(default: None)
-f [ ...], --filename [ ...]
Filename of map. None will not save. (default: Map_YYYYMMDD-HHMMSS)
-j [], --json [] Filename of json file to use.
(choices: {List of .json files in current dir})
--headless Run headless.
"""
import requests
import sys
import json
import os
from collections import OrderedDict
import argparse
# import numpy as np
import time
import webbrowser
import re
# ## EDIT THESE SETTINGS ##
TAUTULLI_APIKEY = '' # Your Tautulli API key
TAUTULLI_URL = 'http://localhost:8181/' # Your Tautulli URL
# Replace LAN IP addresses that start with the LAN_SUBNET with a WAN IP address
# to retrieve geolocation data. Leave REPLACEMENT_WAN_IP blank for no replacement.
LAN_SUBNET = ('10.10', '127.0.0')
REPLACEMENT_WAN_IP = ''
# Enter Friendly name for Server ie 'John Smith'
SERVER_FRIENDLY = 'Server'
# Server location information. Find this information on your own.
# If server plot is out of scope add print(geo_lst) after ut.user_id loop ~line 151 to find the error
SERVER_LON = ''
SERVER_LAT = ''
SERVER_CITY = ''
SERVER_STATE = ''
SERVER_PLATFORM = 'Server'
DEFAULT_COLOR = '#A96A1C' # Plex Orange?
PLATFORM_COLORS = {'Android': '#a4c639', # Green
'Roku': '#800080', # Purple
'Chromecast': '#ffff00', # Yellow
'Xbox One': '#ffffff', # White
'Chrome': '#ff0000', # Red
'Playstation 4': '#0000ff', # Blue
'iOS': '#8b4513', # Poop brown
'Samsung': '#0c4da2', # Blue
'Windows': DEFAULT_COLOR,
'Xbox 360 App': DEFAULT_COLOR}
# title of map
title_string = "Location of Plex users based on ISP data"
def clean_up_text(title):
cleaned = re.sub('\W+', ' ', title)
return cleaned
class GeoData(object):
def __init__(self, data=None):
data = data or {}
self.continent = data.get('continent', 'N/A')
self.country = data.get('country', 'N/A')
self.region = clean_up_text(data.get('region', 'N/A'))
self.city = clean_up_text(data.get('city', 'N/A'))
self.postal_code = data.get('postal_code', 'N/A')
self.timezone = data.get('timezone', 'N/A')
self.latitude = data.get('latitude', 'N/A')
self.longitude = data.get('longitude', 'N/A')
self.accuracy = data.get('accuracy', 'N/A')
class UserIPs(object):
def __init__(self, data=None):
d = data or {}
self.ip_address = d['ip_address']
self.friendly_name = clean_up_text(d['friendly_name'])
self.play_count = d['play_count']
self.platform = d['platform']
def get_users_tables(users='', length=''):
# Get the users list from Tautulli
if length:
payload = {'apikey': TAUTULLI_APIKEY,
'cmd': 'get_users_table',
'length': length}
else:
payload = {'apikey': TAUTULLI_APIKEY,
'cmd': 'get_users_table'}
try:
r = requests.get(TAUTULLI_URL.rstrip('/') + '/api/v2', params=payload)
response = r.json()
res_data = response['response']['data']['data']
if not length and not users:
# Return total user count
return response['response']['data']['recordsTotal']
else:
if users == 'all':
return [d['user_id'] for d in res_data]
elif users == 'friendly_name':
return [d['friendly_name'] for d in res_data]
else:
return [d['user_id'] for user in users for d in res_data if user == d['friendly_name']]
except Exception as e:
sys.stderr.write("Tautulli API 'get_users_tables' request failed: {0}.".format(e))
def get_users_ips(user_id, length):
# Get the user IP list from Tautulli
payload = {'apikey': TAUTULLI_APIKEY,
'cmd': 'get_user_ips',
'user_id': user_id}
try:
r = requests.get(TAUTULLI_URL.rstrip('/') + '/api/v2', params=payload)
response = r.json()
res_data = response['response']['data']['data']
return [UserIPs(data=d) for d in res_data]
except Exception as e:
sys.stderr.write("Tautulli API 'get_users_ips' request failed: {0}.".format(e))
def get_geoip_info(ip_address=''):
# Get the geo IP lookup from Tautulli
payload = {'apikey': TAUTULLI_APIKEY,
'cmd': 'get_geoip_lookup',
'ip_address': ip_address}
try:
r = requests.get(TAUTULLI_URL.rstrip('/') + '/api/v2', params=payload)
response = r.json()
if response['response']['result'] == 'success':
data = response['response']['data']
if data.get('error'):
raise Exception(data['error'])
else:
sys.stdout.write("Successfully retrieved geolocation data.")
return GeoData(data=data)
else:
raise Exception(response['response']['message'])
except Exception as e:
sys.stderr.write("Tautulli API 'get_geoip_lookup' request failed: {0}.".format(e))
pass
def add_to_dictlist(d, key, val):
if key not in d:
d[key] = [val]
else:
d[key].append(val)
for x in d[key]:
if (val['region'], val['city']) == (x['region'], x['city']):
x['location_count'] += 1
def get_geo_dict(length, users):
geo_dict = {SERVER_FRIENDLY: [{'lon': SERVER_LON, 'lat': SERVER_LAT, 'city': SERVER_CITY, 'region': SERVER_STATE,
'ip': REPLACEMENT_WAN_IP, 'play_count': 0, 'platform': SERVER_PLATFORM,
'location_count': 0}]}
for i in get_users_tables(users):
user_ip = get_users_ips(user_id=i, length=length)
city_cnt = 0
for a in user_ip:
try:
ip = a.ip_address
if ip.startswith(LAN_SUBNET) and REPLACEMENT_WAN_IP:
ip = REPLACEMENT_WAN_IP
g = get_geoip_info(ip_address=ip)
add_to_dictlist(geo_dict, a.friendly_name, {'lon': str(g.longitude), 'lat': str(g.latitude),
'city': str(g.city), 'region': str(g.region),
'ip': ip, 'play_count': a.play_count,
'platform': a.platform, 'location_count': city_cnt})
except AttributeError:
print('User: {} IP: {} caused error in geo_dict.'.format(a.friendly_name, a.ip_address))
pass
except Exception as e:
print('Error here: {}'.format(e))
pass
return geo_dict
def get_geojson_dict(user_locations):
locs = []
for username, locations in user_locations.iteritems():
for location in locations:
try:
locs.append({
"type": "Feature",
"properties": {
"User": username,
"City": location['city'],
"State": location['region'],
"IP": location['ip'],
"Count": location['play_count']
},
"geometry": {
"type": "Point",
"coordinates": [
float(location['lon']), float(location['lat'])
]
}
})
locs.append({
"type": "Feature",
"properties": {
"geodesic": "true",
"geodesic_steps": 50,
"geodesic_wrap": "true"
},
"geometry": {
"type": "LineString",
"coordinates": [
[float(location['lon']), float(location['lat'])],
[float(SERVER_LON), float(SERVER_LAT)],
]
}
})
except ValueError:
pass
return {
"type": "FeatureCollection",
"features": locs
}
def draw_map(map_type, geo_dict, filename, headless, leg_choice):
import matplotlib as mpl
if headless:
mpl.use("Agg")
import matplotlib.pyplot as plt
from mpl_toolkits.basemap import Basemap
# ## Map stuff ##
plt.figure(figsize=(16, 9), dpi=100, frameon=False)
lon_r = 0
lon_l = 0
if map_type == 'NA':
m = Basemap(llcrnrlon=-119, llcrnrlat=22, urcrnrlon=-54, urcrnrlat=55, projection='lcc', resolution='l',
lat_1=32, lat_2=45, lon_0=-95)
lon_r = 66.0
lon_l = -124.0
elif map_type == 'EU':
m = Basemap(llcrnrlon=-15., llcrnrlat=20, urcrnrlon=75., urcrnrlat=70, projection='lcc', resolution='l',
lat_1=30, lat_2=60, lon_0=35.)
lon_r = 50.83
lon_l = -69.03
elif map_type == 'World':
m = Basemap(projection='robin', lat_0=0, lon_0=-100, resolution='l', area_thresh=100000.0)
# m.drawmeridians(np.arange(0, 360, 30))
# m.drawparallels(np.arange(-90, 90, 30))
lon_r = 180
lon_l = -180.0
# remove line in legend
mpl.rcParams['legend.handlelength'] = 0
m.drawmapboundary(fill_color='#1F1F1F')
m.drawcoastlines()
m.drawstates()
m.drawcountries()
m.drawlsmask(land_color='#3C3C3C', ocean_color='#1F1F1F')
for key, values in geo_dict.items():
# add Accuracy as plot/marker size, change play count to del_s value.
for data in values:
if key == SERVER_FRIENDLY:
color = '#FFAC05'
marker = '*'
markersize = 10
zord = 3
alph = 1
else:
if data['platform'] in PLATFORM_COLORS:
color = PLATFORM_COLORS[data['platform']]
else:
color = DEFAULT_COLOR
print('Platform: {} is missing from PLATFORM_COLORS. Using DEFAULT_COLOR.'.format(data['platform']))
marker = '.'
if data['play_count'] >= 100:
markersize = (data['play_count'] * .1)
elif data['play_count'] <= 2:
markersize = 2
else:
markersize = 2
zord = 2
alph = 0.4
px, py = m(float(data['lon']), float(data['lat']))
x, y = m([float(data['lon']), float(SERVER_LON)], [float(data['lat']), float(SERVER_LAT)])
legend = 'Location: {}, {}, User: {}\nPlatform: {}, IP: {}, Play Count: {}'.format(
data['city'], data['region'], key, data['platform'], data['ip'], data['play_count'])
# Keeping lines inside the Location. Plots outside Location will still be in legend
if float(data['lon']) != float(SERVER_LON) and float(data['lat']) != float(SERVER_LAT) and \
lon_l < float(data['lon']) < lon_r:
# Drawing lines from Server location to client location
if data['location_count'] > 1:
lines = m.plot(x, y, marker=marker, color=color, markersize=0,
label=legend, alpha=.6, zorder=zord, linewidth=2)
# Adding dash sequence to 2nd, 3rd, etc lines from same city,state
for line in lines:
line.set_solid_capstyle('round')
dashes = [x * data['location_count'] for x in [5, 8, 5, 8]]
line.set_dashes(dashes)
else:
m.plot(x, y, marker=marker, color=color, markersize=0, label=legend, alpha=.4, zorder=zord,
linewidth=2)
m.plot(px, py, marker=marker, color=color, markersize=markersize, label=legend, alpha=alph, zorder=zord)
if leg_choice:
handles, labels = plt.gca().get_legend_handles_labels()
idx = labels.index('Location: {}, {}, User: {}\nPlatform: {}, IP: {}, Play Count: {}'.
format(SERVER_CITY, SERVER_STATE, SERVER_FRIENDLY, SERVER_PLATFORM, REPLACEMENT_WAN_IP,
0))
labels = labels[idx:] + labels[:idx]
handles = handles[idx:] + handles[:idx]
by_label = OrderedDict(zip(labels, handles))
leg = plt.legend(by_label.values(), by_label.keys(), fancybox=True, fontsize='x-small',
numpoints=1, title="Legend", labelspacing=1., borderpad=1.5, handletextpad=2.)
if leg:
lleng = len(leg.legendHandles)
for i in range(1, lleng):
leg.legendHandles[i]._legmarker.set_markersize(10)
leg.legendHandles[i]._legmarker.set_alpha(1)
leg.get_title().set_color('#7B777C')
leg.draggable()
leg.get_frame().set_facecolor('#2C2C2C')
for text in leg.get_texts():
plt.setp(text, color='#A5A5A7')
plt.title(title_string)
if filename:
plt.savefig('{}.png'.format(filename))
print('Image saved as: {}.png'.format(filename))
if not headless:
mng = plt.get_current_fig_manager()
mng.window.state('zoomed')
plt.show()
if __name__ == '__main__':
timestr = time.strftime("%Y%m%d-%H%M%S")
user_count = get_users_tables()
user_lst = sorted(get_users_tables('friendly_name', user_count))
json_check = sorted([f for f in os.listdir('.') if os.path.isfile(f) and f.endswith(".json")],
key=os.path.getmtime)
parser = argparse.ArgumentParser(description="Use PlexPy to draw map of user locations base on IP address.",
formatter_class=argparse.RawTextHelpFormatter)
parser.add_argument('-m', '--map', default='NA', choices=['NA', 'EU', 'World', 'Geo'], metavar='',
help='Map location. choices: (%(choices)s) \n(default: %(default)s)')
parser.add_argument('-c', '--count', nargs='?', type=int, default=2, metavar='',
help='How many IPs to attempt to check. \n(default: %(default)s)')
parser.add_argument('-u', '--users', nargs='+', type=str, default='all', choices=user_lst, metavar='',
help='Space separated list of case sensitive names to process. Allowed names are: \n'
'%(choices)s \n(default: %(default)s)')
parser.add_argument('-i', '--ignore', nargs='+', type=str, default=None, choices=user_lst, metavar='',
help='Space separated list of case sensitive names to process. Allowed names are: \n'
'%(choices)s \n(default: %(default)s)')
parser.add_argument('-f', '--filename', nargs='+', type=str, default='Map_{}'.format(timestr), metavar='',
help='Filename of map. None will not save. \n(default: %(default)s)')
parser.add_argument('-j', '--json', nargs='?', type=str, choices=json_check, metavar='',
help='Filename of json file to use. \n(choices: %(choices)s)')
parser.add_argument('--headless', action='store_true', help='Run headless.')
parser.add_argument('--legend', dest='legend', action='store_true', help='Toggle on legend.')
parser.add_argument('--no_legend', dest='legend', action='store_false', help='Toggle off legend.')
parser.set_defaults(legend=True)
opts = parser.parse_args()
if opts.json:
if opts.filename == ['None']:
filename = None
else:
filename = '{}'.format(''.join(opts.filename))
print('Using existing .json file to map.')
with open(''.join(opts.json)) as json_data:
geo_json = json.load(json_data)
else:
# print(opts)
if opts.ignore and opts.users == 'all':
users = [x for x in user_lst if x not in opts.ignore]
else:
users = opts.users
if opts.filename == ['None']:
filename = None
json_file = '{}.json'.format(timestr)
else:
filename = '{}'.format(''.join(opts.filename))
json_file = '{}.json'.format(''.join(opts.filename))
geo_json = get_geo_dict(opts.count, users)
with open(json_file, 'w') as fp:
json.dump(geo_json, fp, indent=4, sort_keys=True)
if opts.map == 'Geo':
geojson = get_geojson_dict(geo_json)
print("\n")
r = requests.post("https://api.github.com/gists",
json={
"description": title_string,
"files": {
'{}.geojson'.format(filename): {
"content": json.dumps(geojson, indent=4)
}
}
},
headers={
'Content-Type': 'application/json'
})
print(r.json()['html_url'])
if not opts.headless:
webbrowser.open(r.json()['html_url'])
else:
draw_map(opts.map, geo_json, filename, opts.headless, opts.legend)